Use Low Wind Speed to Meet Electricity Demand in Remote Areas

Zhengye Xie

doi:10.54097/34d90m04

Authors

Zhengye Xie

DOI:

https://doi.org/10.54097/34d90m04

Keywords:

Low wind speed, Remote area, Wind power generation.

Abstract

Around the world, remote areas face difficulties in accessing electricity. Therefore, studying multiple energy supply options to find solutions is an important topic. This paper takes Chinese studies as an example, the advantages and disadvantages of various power generation modes are compared. From the degree of environmental impact, power generation cost, and the needs of people in remote areas, the study found that the use of wind power is the most suitable for research objectives. A comparison was made between conventional wind turbines and existing low wind speed wind turbine studies in China. It is concluded that low wind speed wind turbine equipment is more suitable for remote areas (Low wind speed refers to wind resources with wind speed below 4m/s in airspace below 50m). In this paper, the low wind speed wind turbine is analyzed, and it is found that it has a special structure, which can make it operate in the place of variable wind direction. Therefore, a low wind speed wind turbine is proposed to solve the difficulty of electricity consumption in remote areas.

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References

[1] Song Jing. Research on the distribution of wind energy resources and wind power planning in China. North China Electric Power University, 2013.

[2] Hua Zejia, Guo Yongjian, Song Bo. Feasibility analysis of distributed micro-wind power generation in urban areas of Jilin. Northeast Electric Power University Journal, 2018, 38 (03): 32-38.

[3] Li Binhai, Ji Feng, Qin Hongyan. New urban micro-wind power generation device. Wind Energy, 2015, (04): 92-96.

[4] Hu Yunyan, Zhang Ruiying, Wang Jun. The current development status and prospects of solar photovoltaic power generation in China. Journal of Hebei University of Science and Technology, 2014, 35 (01): 69-72.

[5] Luo Chengxian. The popularization and prospects of solar power generation. China and Foreign Energy, 2010, 15 (11): 33-39.

[6] Sun Jingbo, Wang Yang, Yang Xiaofan, et al. Analysis of the temporal and spatial variation characteristics of climate risk for wind and solar resources in China. China Electric Power, 2023, 56 (05): 1-10.

[7] Wu Yongping, Yu Baocai, Li Fuchen. Evaluation of the "Natural Gas Substituting Coal Policy" based on cost-benefit analysis—Discussion on the economic and environmental benefits of natural gas replacing coal. Public Administration Review, 2014, 16 (01): 3-14.

[8] Xu Fahai. Fuel management and cost control in thermal power plants. China Electric Power Education, 2012, (24): 94-95.

[9] Huang Shulin, Chen Chao, Bai Qinwen, et al. A brief discussion on the current status and development prospects of hydropower in China. Science and Technology Innovation and Application, 2016, (27): 204.

[10] Zheng Shouren. Opportunities and challenges in the development and utilization of water energy resources in China. Journal of Hydraulic Engineering, 2007, (S1): 1-6.

[11] Fan Jihui. Simulation of cascade reservoir group dispatching and its impact on the river ecosystem. Graduate School of Chinese Academy of Sciences (Institute of Mountain Hazards and Environment), 2007.

[12] Xie Ping. The biodiversity crisis of the Yangtze River—Hydraulic engineering is the culprit, illegal fishing is the accomplice. Lake Science, 2017, 29 (06): 1279-1299.

[13] Shen Kuanyu. Wind energy resources and wind power generation in China. Northwest Hydropower, 2010, (01): 76-81.

[14] Tian Haijiao, Wang Tielong, Wang Ying. Overview of vertical axis wind turbine development. Applied Energy Technology, 2006, (11): 22-27.

[15] Chen Shuoping, Yi Heping, Luo Zhihong, et al. High polymer 3D printing materials and printing processes. Materials Review, 2016, 30 (07): 54-59.

[16] Yang Xiuyuan, Xiao Yang, Chen Shuyong. Research on wind speed and power generation prediction in wind farms. China Electrical Engineering Journal, 2005, (11): 1-5.

[17] Schainker, R. B. Executive overview-energy storage options for a sustainable energy future. //IEEE PES General Meeting, 2004: 2309-2314.

[18] Jia Hongxin, Zhang Yu, Wang Yufei, et al. Application of energy storage technology in wind power generation systems. Renewable Energy, 2009, 27 (06): 10-15.

[19] Dong Miaomiao. Feasibility study of low-wind-speed wind power project of Ruodi Company. China University of Geosciences, 2012.